In this research, the removal capacity of Cr(VI) by the reused powdered wastes (RPW) containing aluminium oxides was studied. As a pre-treatment process for the preparation of calcined wastes, calcination was conducted at $550^{circ}C$ to remove organic fraction in the raw wastes. In order to study the adsorption trend of Cr(VI) ions from aqueous solutions, the pH-edge adsorption, adsorption kinetic and adsorption isotherm were investigated using a batch reactor in the presence of four different background electrolytes($NO_3;^-,;CO_3;^{2-},;SO_4;^{2-},;PO_4;^{3-}$). Cr(VI) adsorption was greatly reduced in the presence of $SO_4;^{2-}$ and $PO_4;^{3-}$ over the entire pH range. Meanwhile the inhibition effect by $NO_3;^-$ and $CO_3;^{2-}$ was relatively lower than that by $SO_4;^{2-}$ and $PO_4;^{3-}$. Cr(VI) adsorption was maximum around pH 4.5 in the presence of $NO_3;^-$ and $CO_3;^{2-}$. As the concentration of background electrolytes increased, Cr(VI) adsorption decreased. This result mightly suggests that adsorption between the surface of RPW and Cr(VI) occurs through outer-sphere complex. Cr(VI) adsorption onto the RPW was well described by second-order kinetics. From the Langmuir isotherm at initial pH 3, the maximum adsorbed amount of Cr(VI) onto the RPW was 11.1, 10, 3.3, 5 mg/g in the presence of $NO_3;^-,;CO_3;^{2-},;SO_4;^{2-}$, and $PO_4;^{3-}$, respectively.